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Diffractive magic cube network with super-high capacity enabled by mechanical reconfiguration

Mechanically reconfigurable mechanisms offer a cost-effective, low-complexity approach to build high-capacity multiplexing wavefront modulation devices, yet current studies achieve insufficient channel numbers for practical applications due to limited mechanical transformations and suboptimal optimization models. Here, authors propose a diffractive magic cube network to address this challenge.

Peijie Feng
Fubei Liu
Yunhua Tan
ResearchOpen Access11 Jan 2026
Nature Communications

P: 1-13
Quasi-bound flat bands in the continuum

Quasi-BICs are known for their high sensitivity to structural disorder, which strongly affects their quality factor. Here, authors introduce quasi-bound flat bands in the continuum — optical states originating from disorder-induced band folding. Their theoretical and experimental results provide a paradigm for designing devices of high-quality factor and broad angular response.

Haoyu Qin
Weixuan Zhang
Xiangdong Zhang
ResearchOpen Access02 Dec 2025
Nature Communications

Volume: 16, P: 1-10
Optical moiré bound states in the continuum

Trapping electromagnetic waves within the radiation continuum has significant implications in lasers and sensing. Here the authors achieved a moiré BIC in a photonic crystal slab, demonstrating simultaneous flat-band dispersing and high-Q features within a wide-angle regime.

Haoyu Qin
Shaohu Chen
Xiangdong Zhang
ResearchOpen Access21 Oct 2024
Nature Communications

Volume: 15, P: 1-9
Active multiband varifocal metalenses based on orbital angular momentum division multiplexing

A dielectric metalens consisting of ultrahigh aspect ratio TiO₂ nanofins array is demonstrated to realize active multiband varifocal functionality. By regulating the orbital angular momentum, the focal length can be switched from 5 mm to 35 mm with large DOFs.

Ruixuan Zheng
Ruhao Pan
Junjie Li
ResearchOpen Access25 Jul 2022
Nature Communications

Volume: 13, P: 1-8
DDTC-Cu(I) inhibits human osteosarcoma cells growth by repressing MET/PI3K/AKT signaling pathway

Ruhao Zhou
Lei Yan
Zhi Tian
ResearchOpen Access01 Jul 2025
Scientific Reports

Volume: 15, P: 1-12
Electromechanically reconfigurable optical nano-kirigami

The authors present on-chip and electromechanically reconfigurable nanokirigami with optical functionalities. 3D deformations are achieved via attractive electrostatic forces between a gold nanostructure layer and silicon substrate, resulting in optical reconfigurations with high modulation contrast and small unit size.

Shanshan Chen
Zhiguang Liu
Jiafang Li
ResearchOpen Access26 Feb 2021
Nature Communications

Volume: 12, P: 1-8
MiR-134-5p inhibits the malignant phenotypes of osteosarcoma via ITGB1/MMP2/PI3K/Akt pathway

Lei Yan
Ruhao Zhou
Zhi Tian
ResearchOpen Access25 Apr 2024
Cell Death Discovery

Volume: 10, P: 1-10

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Diffractive magic cube network with super-high capacity enabled by mechanical reconfiguration

Quasi-bound flat bands in the continuum

Optical moiré bound states in the continuum

Active multiband varifocal metalenses based on orbital angular momentum division multiplexing

DDTC-Cu(I) inhibits human osteosarcoma cells growth by repressing MET/PI3K/AKT signaling pathway

Electromechanically reconfigurable optical nano-kirigami

MiR-134-5p inhibits the malignant phenotypes of osteosarcoma via ITGB1/MMP2/PI3K/Akt pathway

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